CN115125533A

CN115125533A - High-density fiberboard coating processing device

Info

Publication number: CN115125533A
Application number: CN202210770734.2A
Authority: CN
Inventors: 向湘军; 王杰超; 袁仕云; 谭海斌; 刘晶; 胡德智
Original assignee: Hunan Hengxin New Building Materials Co ltd
Current assignee: Hunan Hengxin New Building Materials Co ltd
Priority date: 2022-06-30
Filing date: 2022-06-30
Publication date: 2022-09-30
Anticipated expiration: 2042-06-30
Also published as: CN115125533B

Abstract

The invention relates to a high-density fiberboard coating processing device, which comprises a coating frame and a rotary clamping mechanism arranged in the coating frame. The invention can solve the problems that the prior high-density fiberboard needs to be manually turned over in the film coating process, only one end face of the limiting plate can be coated in the operation, the fiberboard is manually turned over after a film coating layer on the fiberboard is solidified to coat the other end face of the fiberboard, the traditional fiberboard film coating process equipment cannot finish the purpose of coating the two sides of the fiberboard in one operation flow, and the fiberboard cannot be automatically turned over in the film coating operation, so that the automation degree is low, the operation is complicated and the efficiency is low.

Description

High density fiberboard coating film processing device

Technical Field

The invention relates to the technical field of processing of density boards, in particular to a high-density fiberboard coating processing device.

Background

The high-density fiberboard is produced according to different production requirements in the processing process, the process of the high-density fiberboard in the production and processing process is different, the coating processing of the surface of the high-density fiberboard is a common fiberboard processing process, and the quality of a coating layer on the surface of the fiberboard directly influences the use effect of the high-density fiberboard.

However, the existing high-density fiberboard needs to be manually turned over in the coating processing process, only one end face of the fiberboard can be coated in the operation, and after a coating layer on the fiberboard is solidified, the other end face of the fiberboard is manually turned over and then coated with a film.

Disclosure of Invention

Technical problem to be solved

The invention can solve the technical problems of the high-density fiberboard in the film coating operation.

(II) technical scheme

In order to achieve the purpose, the invention adopts the following technical scheme: a high-density fiberboard coating processing device comprises a coating frame and a rotary clamping mechanism arranged in the coating frame;

the front side of the film coating frame is provided with a through groove for controlling the fiber board to be loaded and unloaded, the rear side of the film coating frame is provided with a rotating groove for assisting the fiber board to overturn, the upper end and the lower end of the rotating groove are both provided with protective covers, a film coating operation opening is formed in the film coating frame, and the film coating operation opening is provided with a film coating machine

The rotating clamping mechanism comprises a rotating motor which is arranged on the film coating frame through a motor base, an output shaft of the rotating motor penetrates through the film coating frame through a bearing to be connected with an adjusting pipe, and clamping branched chains for fixing the fiber board are uniformly arranged on the adjusting pipe along the circumferential direction of the adjusting pipe;

the clamping branch chain comprises a clamping pipe arranged on the adjusting pipe through a bearing, a rectangular frame is arranged on the clamping pipe, a rotary rod is arranged at one end, away from the clamping pipe, of the rectangular frame, a rotary gear is arranged on the rotary rod, a rotary rack matched with the rotary gear is arranged on the inner wall of the rear side of the film coating frame, a clamping spring rod is arranged on the inner wall of the rectangular frame, and a clamping execution frame is arranged on the clamping spring rod.

Further, a rectangular block is mounted on the rotary rod, a limiting groove is formed in the rectangular block, moving wheels are mounted on the rotary rod and the clamping tube through bearings, and the moving wheels abut against the inner wall of the film coating frame;

further, a limiting plate in an arc structure is mounted on the inner wall of the film coating frame, the limiting plate and the limiting groove move in a matched mode, and the arc opening position of the limiting plate corresponds to the position of the rotating groove;

furthermore, a cam block is arranged on the inner wall of the film coating frame, and a T-shaped groove is formed in the cam block.

Furthermore, adjusting sliding grooves are uniformly formed in the clamping pipe, an adjusting spring rod is mounted inside the clamping pipe, an adjusting frame is mounted on the adjusting spring rod, and the adjusting frame is connected with the T-shaped groove in a sliding mode;

furthermore, the rectangular frame is evenly provided with line passing holes, the clamping execution frame is connected with pull ropes, the pull ropes penetrate through the line passing holes to be connected with linkage ropes, and the linkage ropes penetrate through the adjusting sliding grooves to be connected with the adjusting frame.

Furthermore, the outer wall of the rectangular frame is uniformly provided with wire passing pipes, and the linkage ropes pass through the wire passing pipes;

furthermore, driven plates are symmetrically arranged on the inner walls of the rectangular frames on two sides of the clamping spring rod and connected with the inner walls of the rectangular frames through pin shafts, a reset spring is arranged between each driven plate and the corresponding inner wall of the rectangular frame, the upper end of each driven plate abuts against the inner wall of the clamping execution frame, the lower end of each driven plate abuts against a supporting block, and a supporting spring rod is arranged between each supporting block and the corresponding inner wall of the rectangular frame.

Furthermore, the supporting block is of an inward inclined structure from top to bottom.

Furthermore, heating plates in an arc structure are symmetrically arranged in the rectangular frame.

(III) advantageous effects

1. The invention solves the problems that the prior high-density fiberboard needs to be manually turned over in the coating processing process, only one end face of the fiberboard can be coated in the operation, the fiberboard is manually turned over after a coating layer on the fiberboard is solidified to coat the other end face of the fiberboard, the traditional fiberboard coating processing equipment cannot finish the purpose of coating the two sides of the fiberboard in one operation flow, and the fiberboard cannot be automatically turned over in the coating operation, so that the automation degree is low, the operation is complicated and the efficiency is low.

2. The rotary clamping mechanism designed in the invention can not only carry out coating treatment on the fiber board in a pipeline operation mode in operation, but also automatically turn over in the coating operation, can finish the function of coating treatment on the double surfaces of the fiber board in an operation flow, is simple and convenient to operate, and improves the coating treatment efficiency of the fiber board.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a schematic diagram of the structure of the clamping branch of the present invention;

fig. 4 is a cross-sectional view of fig. 3 of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 4, a high-density fiberboard coating processing device comprises a coating frame 1 and a rotating clamping mechanism arranged in the coating frame 1, wherein a coating operation opening is arranged on the coating frame 1, and a coating machine 3 is arranged at the coating operation opening

A through groove for controlling the fiber board to be loaded and unloaded is formed in the front side of the film coating frame 1, a rotating groove for assisting the fiber board to turn over is formed in the rear side of the film coating frame 1, and protective covers 2 are arranged at the upper end and the lower end of the rotating groove;

in the specific work using the technical scheme, a fiber board to be subjected to film coating processing is placed on the rotary clamping mechanism through the through groove, the fiber board is clamped through the rotary clamping mechanism and is driven to move clockwise and circumferentially, the upward end face of the fiber board is coated through one of the film coating machines 3 in the process, then the rotary clamping mechanism continuously controls the fiber board to move, when the fiber board moves to the position range of the protective cover 2, the rotary clamping mechanism starts to drive the fiber board to turn over, after the turning operation is completed, the rotary clamping mechanism continuously drives the fiber board to move, at the moment, the other film coating machine 3 coats the other end face of the fiber board, the fiber board after film coating is controlled to move to the initial position through the rotary clamping mechanism, at the moment, the first fiber board completes the film coating operation, and (4) continuously adding the fiber boards, and automatically discharging the first fiber board downwards from the through groove after the second fiber board is placed.

The rotating clamping mechanism comprises a rotating motor 4 which is arranged on the film coating frame 1 through a motor base, an output shaft of the rotating motor 4 penetrates through the film coating frame 1 through a bearing to be connected with an adjusting pipe 5, and clamping branched chains 6 used for fixing the fiber board are uniformly arranged on the adjusting pipe 5 along the circumferential direction of the adjusting pipe;

heating plates 620 in a circular arc structure are symmetrically arranged in the rectangular frame 62.

By using the technical scheme, in specific work, the heating plate 620 is electrified to start working to supply heat to the coating frame 1, so that the temperature inside the coating frame 1 is increased, and the coating layer on the surface of the fiber board is rapidly solidified.

The rotating rod 63 is provided with a rectangular block 68, the rectangular block 68 is provided with a limit groove, the rotating rod 63 and the clamping tube 61 are both provided with a moving wheel 69 through a bearing, and the moving wheel 69 is attached to the inner wall of the film coating frame 1.

In specific work using the above technical scheme, in the work, the fiberboard to be coated is placed on the clamping branched chain 6, the rotating motor 4 is started to control the adjusting pipe 5 to rotate and adjust, the adjusting pipe 5 drives the rectangular block 68 on the clamping branched chain 6 to synchronously adjust the position so as to be in sliding fit with the limiting plate 610 in the rotating process, and the moving wheel 69 not only can assist the rectangular frame 62 to rotate in the process, but also shares the pressure on the clamping pipe 61.

The clamping branched chain 6 comprises a clamping pipe 61 arranged on the adjusting pipe 5 through a bearing, a rectangular frame 62 is installed on the clamping pipe 61, a rotating rod 63 is installed on one end, away from the clamping pipe 61, of the rectangular frame 62, a clamping spring rod 66 is arranged on the inner wall of the rectangular frame 62, and a clamping execution frame 67 is installed on the clamping spring rod 66.

The inner wall of the film coating frame 1 is provided with a cam block 611, the cam block 611 is provided with a T-shaped groove, and the cam block 611 is positioned inside the adjusting pipe 5.

The clamping tube 61 is uniformly provided with adjusting sliding grooves, an adjusting spring rod 612 is arranged inside the clamping tube 61, an adjusting frame 613 is arranged on the adjusting spring rod 612, and the adjusting frame 613 is connected with the T-shaped groove in a sliding manner;

the rectangular frame 62 is uniformly provided with wire through holes, the clamping execution frame 67 is connected with a pull rope 614, the pull rope 614 passes through the wire through holes to be connected with a linkage rope 615, and the linkage rope 615 passes through the adjusting sliding groove to be connected with the adjusting frame 613.

The outer wall of the rectangular frame 62 is uniformly provided with wire passing pipes 616, and the linkage ropes 615 pass through the wire passing pipes 616;

in the specific work using the above technical solution, when the rectangular frame 62 moves to the position of the through slot, the adjusting frame 613 is located at the concave position of the cam block 611, in this state, the adjusting frame 613 moves in the direction of the cam block 611 as a whole, the adjusting frame 613 synchronously controls the movement of the linkage rope 615 during the movement, the linkage rope 615 drives the clamping executing frame 67 to move towards the inner wall of the rectangular frame 62 by dragging the pull rope 614 during the movement, the clamping executing frame 67 moves the supporting block 618 by pressing the driven plate 617 during the movement, and at this time, the fiber plate to be subjected to the film coating process is placed on the supporting block 618, and the fiber plate is supported by the supporting block 618.

Driven plates 617 are symmetrically arranged on the inner walls of the rectangular frames 62 at two sides of the clamping spring rod 66, the driven plates 617 are connected with the inner walls of the rectangular frames 62 through pin shafts, a return spring is arranged between the driven plates 617 and the inner walls of the rectangular frames 62, the upper ends of the driven plates 617 abut against the inner walls of the clamping execution frame 67, the lower ends of the driven plates 617 abut against supporting blocks 618, and supporting spring rods 619 are arranged between the supporting blocks 618 and the inner walls of the rectangular frames 62.

Supporting shoe 618 is from last down for the structure that inclines inwards, can extrude supporting shoe 618 after the fibreboard atress for supporting shoe 618 resets under supporting spring rod 619's assistance, guarantees that the fibreboard after the coating film is handled can follow the groove that runs through and discharge downwards, and gravity alleviates after first fibreboard discharges, and supporting shoe 618 resets under supporting spring rod 619's effect, supports the second limiting plate.

In specific work by using the above technical scheme, when the adjusting pipe 5 drives the rectangular frame 62 on the clamping pipe 61 to rotate at a constant speed, the adjusting frame 613 is synchronously driven to change the contact position with the T-shaped groove, the adjusting frame 613 moves towards one side of the rectangular frame 62 in the process, at this time, under the action of the clamping spring rod 66, the clamping execution frame 67 starts to move towards the plate to tightly abut against the four sides of the fiberboard, the driven plate 617 starts to adjust under the action of the return spring in the moving process of the clamping execution frame 67, and meanwhile, the supporting block 618 resets under the action of the supporting spring rod 619, and under this state, the fiberboard is tightly abutted and clamped by the four clamping execution frames 67;

the rotating rod 63 is provided with a rotating gear 64, the inner wall of the rear side of the film coating frame 1 is provided with a rotating rack 65 matched with the rotating gear 64, the inner wall of the film coating frame 1 is provided with a limiting plate 610 in an arc structure, the limiting plate 610 moves in a matching way with a limiting groove, and the arc opening position of the limiting plate 610 corresponds to the position of the rotating groove.

In order to ensure the stability of the fiber board in the coating treatment operation, when the adjusting pipe 5 drives the rectangular frame 62 to perform the adjusting movement, the limiting plate 610 is inserted into the limiting groove, so that the rectangular frame 62 can only rotate and be adjusted along with the adjusting pipe 5, and when the rectangular frame 62 needs to be overturned, the limiting plate 610 and the limiting groove are separated.

Use above-mentioned technical scheme in concrete work, carry out coating film treatment through coating machine 3 to the up end of fibreboard at the in-process of motion, move to the position department of rotating the groove under the effect of regulating tube 5 after the up end coating film of fibreboard is accomplished, rotatory gear 64 in this process with rotate the rack 65 between mutually supporting drive rectangular frame 62 and carry out holistic upset, thereby make the one side of the fibreboard of non-coating film in rectangular frame 62 be in the upside, continue to follow the regulating tube after rectangular frame 62 is rotatory to be accomplished and rotate, limiting plate 610 this moment block into the spacing inslot, carry out coating film treatment to the terminal surface of fibreboard through the coating machine 3 that sets up.

The present invention has been described in terms of the preferred embodiment, and it is not intended to be limited to the embodiment. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A high-density fiberboard coating processing device comprises a coating frame (1) and a rotary clamping mechanism arranged in the coating frame (1), and is characterized in that the rotary clamping mechanism comprises a clamping mechanism body and a clamping mechanism body;

a through groove for controlling the fiber board to be fed and discharged is formed in the front side of the film coating frame (1), a rotating groove for assisting the fiber board to turn is formed in the rear side of the film coating frame (1), protective covers (2) are arranged at the upper end and the lower end of the rotating groove, a film coating operation opening is formed in the film coating frame (1), and a film coating machine (3) is arranged at the film coating operation opening;

the rotating clamping mechanism comprises a rotating motor (4) which is arranged on the film coating frame (1) through a motor base, an output shaft of the rotating motor (4) penetrates through the film coating frame (1) through a bearing to be connected with an adjusting pipe (5), and clamping branched chains (6) used for fixing the fiberboard are uniformly arranged on the adjusting pipe (5) along the circumferential direction of the adjusting pipe;

centre gripping branch chain (6) are including setting up through the bearing centre gripping pipe (61) on adjusting tube (5), install rectangular frame (62) on centre gripping pipe (61), rectangular frame (62) are kept away from one of centre gripping pipe (61) is served and is installed rotary rod (63), install rotary gear (64) on rotary rod (63), be provided with on the rear side inner wall of coating film frame (1) with rotary gear (64) complex rotates rack (65), be provided with centre gripping spring beam (66) on the inner wall of rectangular frame (62), install centre gripping execution frame (67) on centre gripping spring beam (66).

2. The coating processing device for the high-density fiberboard of claim 1, wherein the rotating rod (63) is provided with a rectangular block (68), the rectangular block (68) is provided with a limiting groove, the rotating rod (63) and the clamping tube (61) are both provided with a moving wheel (69) through bearings, and the moving wheel (69) is attached to the inner wall of the coating frame (1).

3. The coating processing device for the high-density fiberboard of claim 2, wherein the inner wall of the coating frame (1) is provided with a limiting plate (610) in an arc structure, the limiting plate (610) is matched with the limiting groove to move, and the arc opening position of the limiting plate (610) corresponds to the position of the rotating groove.

4. The coating processing device for the high-density fiberboard of claim 3, wherein the inner wall of the coating frame (1) is provided with a cam block (611), and the cam block (611) is provided with a T-shaped groove.

5. The coating processing device for the high-density fiberboard of claim 4, wherein the clamping tube (61) is uniformly provided with adjusting sliding grooves, the clamping tube (61) is internally provided with an adjusting spring rod (612), the adjusting spring rod (612) is provided with an adjusting frame (613), and the adjusting frame (613) is connected with the T-shaped groove in a sliding manner.

6. The coating processing device for the high-density fiberboard of claim 5, wherein the rectangular frame (62) is uniformly provided with wire through holes, the clamping execution frame (67) is connected with a pulling rope (614), the pulling rope (614) passes through the wire through holes to be connected with a linkage rope (615), and the linkage rope (615) passes through the adjusting sliding groove to be connected with the adjusting frame (613).

7. The coating processing device for the high-density fiberboard of claim 6, wherein the outer wall of the rectangular frame (62) is uniformly provided with a wire passing pipe (616), and the linkage rope (615) passes through the wire passing pipe (616).

8. The coating processing device for the high-density fiberboard of claim 7, wherein driven plates (617) are symmetrically arranged on the inner wall of the rectangular frame (62) at two sides of the clamping spring rod (66), the driven plates (617) are connected with the inner wall of the rectangular frame (62) through pin shafts, a return spring is arranged between the driven plates (617) and the inner wall of the rectangular frame (62), the upper end of the driven plates (617) abuts against the inner wall of the clamping execution frame (67), the lower end of the driven plates (617) abuts against a supporting block (618), and a supporting spring rod (619) is arranged between the supporting block (618) and the inner wall of the rectangular frame (62).

9. The coating processing device for high-density fiberboard of claim 8, wherein the supporting blocks (618) are in an inward inclined structure from top to bottom.

10. The coating processing device for the high-density fiberboard of claim 1, wherein the rectangular frame (62) is symmetrically provided with heating plates (620) in a circular arc structure.